112 Development of a Practical High-Performance Laser-Guided Deep-Hole Boring Tool : Performance Test Using A Rolling Proof Apparatus

Hochleistungskunststoffe gewinnen stetig an industrieller Bedeutung und ersetzen in zahlreichen Anwendungen metallische Werkstoffe. Um dieser Entwicklung auch aus fertigungstechnischer Sicht gerecht zu werden, ist die parallele Optimierung von relevanten Fertigungsverfahren unumgänglich. Das Institut für spanende Fertigung ISF der Technischen Universität Dortmund nimmt sich aktuell einer dieser Herausforderungen an und beschäftigt sich mit der Prozessoptimierung des Einlippentiefbohrens thermoplastischer Kunststoffe.   High-performance plastics are steadily gaining ground in the industry, replacing metallic materials in numerous applications. To keep pace with this development in manufacturing, a synchronous optimization of relevant manufacturing processes is crucial. The Institute of Machining Technology currently deals with one of these challenges, focusing on the process optimization of single-lip deep hole drilling of thermoplastics.

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Preparation, performance test and microanalysis of hybrid fibers and microexpansive high-performance shaft lining concrete

Construction and Building Materials ◽

10.1016/j.conbuildmat.2019.06.230 ◽

2019 ◽

Vol 223 ◽

pp. 431-440 ◽

Cited By ~ 1

Author(s):

Long Yang ◽

Zhishu Yao ◽

Weipei Xue ◽

Xuesong Wang ◽

Weihao Kong ◽

...

Keyword(s):

High Performance ◽

Performance Test ◽

Hybrid Fibers ◽

Shaft Lining

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Effect of Control Technology on Properties of Quartz Porous Brick

Key Engineering Materials ◽

10.4028/www.scientific.net/kem.777.564 ◽

2018 ◽

Vol 777 ◽

pp. 564-568 ◽

Cited By ~ 1

Author(s):

Long He ◽

Jin Shi Li ◽

Mei Hua Chen ◽

Yan Yang ◽

Xin Peng Lou ◽

...

Keyword(s):

Compressive Strength ◽

Quartz Sand ◽

High Performance ◽

Performance Test ◽

Holding Time ◽

Raw Material ◽

Process Conditions ◽

Low Grade ◽

Sintering Process ◽

Foaming Agent

A high-performance quartz sand insulation brick was prepared by using low grade quartz sand under different sintering process conditions. The optimum sintering process conditions were obtained by analyzing the relationship between microstructure and sintering process. Through the compounding, pulping, forming, drying and sintering processes, and the performance test of the porous brick, the following conclusions can be drawn, the comprehensive performance in all aspects, the porosity is similar, the preferred high compressive strength conditions, in order to get a best The bonding point, brick body sintering temperature of 1150 °C, porosity of 74.56%, compressive strength of 2.1 MPa of porous brick, and the pores are smooth, more uniform distribution. With the prolonging of the holding time, the porosity of the porous brick is reduced, and the performance is 1h, the porosity is 77.22% and the compressive strength is 2.05 MPa. When the raw material ratio is 60% quartz sand, 30wt% kaolin, calcium carbonate 9.6wt%, foaming agent 0.4wt%, water ratio 0.9 holding time at 1h sintering at 1150°C can get better porosity and compressive strength of the insulation brick. The porous material was sintered at 1150 °C, the content of foaming agent was 0.2wt%, the ratio of water to material was 0.9, and the compressive pressure and porosity were the better.

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Software Engineering Practices to Improve Code Quality and Prepare for Validation

ASME 2010 5th Frontiers in Biomedical Devices Conference and Exhibition ◽

10.1115/biomed2010-32042 ◽

2010 ◽

Cited By ~ 1

Author(s):

Elijah Kerry

Keyword(s):

High Performance ◽

Performance Test ◽

Product Recalls ◽

Embedded Control ◽

Control Applications ◽

Monitoring Applications ◽

Industrial Monitoring ◽

Costly Product ◽

Engineering Practices ◽

Code Quality

Programmers creating mission-critical applications — embedded control applications, industrial monitoring applications, and high-performance test systems — cannot afford to introduce errors or uncertainty into the system. The stakes are especially high in medical applications, where failure can often lead to patient injury and costly product recalls.

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A Framework for Efficient and More Realistic Haptics Applications

Volume 1: 23rd Computers and Information in Engineering Conference, Parts A and B ◽

10.1115/detc2003/cie-48291 ◽

2003 ◽

Cited By ~ 4

Author(s):

Cristian Luciano ◽

Pat Banerjee ◽

Thomas DeFanti ◽

Sanjay Mehrotra

Keyword(s):

High Performance ◽

Performance Test ◽

Test Bed ◽

Haptic Interaction ◽

Interaction Point ◽

3D Objects ◽

Scientific Exploration ◽

Cross Platform ◽

Object Interactions ◽

Penetration Depths

This paper describes the development of a generic framework for implementing realistic cross-platform haptic virtual reality applications. Currently, freely available Software Development Kits (SDKs) deal with a single Haptic Interaction Point (HIP), i.e. the tip of the haptic probe. However, many applications as path planning, virtual assembly, medical or dental simulations, as well as scientific exploration require object-object interactions, meaning any part of the complex 3D object attached to the probe collides with the other objects in the virtual scene. Collision detections and penetration depths between 3D objects must be quickly computed to generate forces to be displayed by the haptic device. In these circumstances, implementation of haptic applications is very challenging when the numbers, stiffness and/or complexity of objects in the scene are considerable, mainly because of high update rates needed to avoid instabilities of the system. The proposed framework meets this high requirement and provides a high-performance test bed for further research in algorithms for collision detection and generation of haptic forces.

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